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Shaleene B. Chavarria

Shaleene Chavarria is a Staff Scientist in the Office of Science Quality and Integrity (OSQI) - Office of Tribal Relations (OTR).

Science and Products

Blue Lakes, Breckenridge, Colorado

Estimating the Future Effects of Forest Disturbance on Snow Water Resources in a Changing Environment

In the Western U.S., approximately 65% of the water supply comes from forested regions with most of the water that feeds local rivers coming from snowmelt that originates in mountain forests. The Rio Grande headwaters (I.e. the primary water generating region of the Rio Grande river) is experiencing large changes to the landscape primarily from forest fires and bark beetle infestations...
By
Climate Adaptation Science Centers
Estimating the Future Effects of Forest Disturbance on Snow Water Resources in a Changing Environment

Estimating the Future Effects of Forest Disturbance on Snow Water Resources in a Changing Environment

In the Western U.S., approximately 65% of the water supply comes from forested regions with most of the water that feeds local rivers coming from snowmelt that originates in mountain forests. The Rio Grande headwaters (I.e. the primary water generating region of the Rio Grande river) is experiencing large changes to the landscape primarily from forest fires and bark beetle infestations. Already
Learn More
Dry Rio Grande riverbed near Selden Canyon, New Mexico.

Analyzing the Response of Waterflow to Projected Climate Conditions in the Upper Rio Grande Basin

Water availability in the upper Rio Grande Basin is dependent on winter and monsoon season precipitation. Consecutive years of drought and above average temperatures have diminished water supply and increased demand for water in this region. The increasing gap between water supply and demand is cause for concern. Climate projections for the southwestern and south central United States...
By
Climate Adaptation Science Centers
Analyzing the Response of Waterflow to Projected Climate Conditions in the Upper Rio Grande Basin

Analyzing the Response of Waterflow to Projected Climate Conditions in the Upper Rio Grande Basin

Water availability in the upper Rio Grande Basin is dependent on winter and monsoon season precipitation. Consecutive years of drought and above average temperatures have diminished water supply and increased demand for water in this region. The increasing gap between water supply and demand is cause for concern. Climate projections for the southwestern and south central United States suggest that
Learn More

Data supporting the 2020 and 2021 geomorphic survey of North Fork Eagle Creek, New Mexico Data supporting the 2020 and 2021 geomorphic survey of North Fork Eagle Creek, New Mexico

This U.S. Geological Survey (USGS) data release contains results from the 2020 and 2021 geomorphic survey of North Fork Eagle Creek, New Mexico. Both geomorphic surveys were conducted by the USGS, in cooperation with the Village of Ruidoso, New Mexico, and are the last set of surveys in a planned series of five annual geomorphic surveys of the stream reach located between the North Fork...
By
New Mexico Water Science Center

GSFLOW, used to run PRMS and MODFLOW-NWT models, to simulate the effects of natural and anthropogenic impacts on water resources in the Rio San Jose Basin and surrounding areas, New Mexico GSFLOW, used to run PRMS and MODFLOW-NWT models, to simulate the effects of natural and anthropogenic impacts on water resources in the Rio San Jose Basin and surrounding areas, New Mexico

The Rio San Jose Integrated Hydrologic Model (RSJIHM) is a sequentially linked, integrated hydrologic model utilizing the Precipitation-Runoff Modeling System (PRMS) (version 5.2.0) and MODFLOW-NWT (version 1.2.0) that was developed to provide a tool for analyzing the hydrologic system response to historical water use and potential changes in water supplies and demands in the Rio San...
By
New Mexico Water Science Center

Data supporting the 2019 geomorphic survey of North Fork Eagle Creek, New Mexico Data supporting the 2019 geomorphic survey of North Fork Eagle Creek, New Mexico

This U.S. Geological Survey (USGS) data release contains results from the 2019 geomorphic survey of North Fork Eagle Creek, New Mexico. The 2019 geomorphic survey was conducted by the USGS, in cooperation with the Village of Ruidoso, New Mexico, and is the third in a planned series of five annual geomorphic surveys of the stream reach located between the North Fork Eagle Creek near Alto...
By
New Mexico Water Science Center

Hydrologic simulations using projected climate data as input to the Precipitation-Runoff Modeling System (PRMS) in the Upper Rio Grande Basin Hydrologic simulations using projected climate data as input to the Precipitation-Runoff Modeling System (PRMS) in the Upper Rio Grande Basin

The Rio Grande Basin Study (Basin Study) is a stakeholder-led project funded by the U.S. Bureau of Reclamation to develop climate adaptation strategies to address the growing gap between water supply and demand in the Upper Rio Grande Basin in Colorado, New Mexico, and Texas. The role of the USGS in the Basin Study is to simulate historic and future streamflow using projected climate...
By
New Mexico Water Science Center

Water and sediment leachate chemistry from the San Juan Generating Station, Waterflow, NM, January 2021 Water and sediment leachate chemistry from the San Juan Generating Station, Waterflow, NM, January 2021

The San Juan Generating Station in Waterflow, NM, owned by the Public Service Company of New Mexico (PNM) is a coal-fired power plant that operates on coal mined on the same property. This plant is scheduled to shut down in 2022. In light of this impending closure, the Bureau of Reclamation (Reclamation) is interested in purchasing the plant's raw-water reservoir for use in the Navajo...
By
New Mexico Water Science Center

Water and sediment leachate chemistry from the San Juan Generating Station, Waterflow, NM, January 2021 Water and sediment leachate chemistry from the San Juan Generating Station, Waterflow, NM, January 2021

The San Juan Generating Station in Waterflow, NM, owned by the Public Service Company of New Mexico (PNM) is a coal-fired power plant that operates on coal mined on the same property. This plant is scheduled to shut down in 2022. In light of this impending closure, the Bureau of Reclamation (Reclamation) is interested in purchasing the plant's raw-water reservoir for use in the Navajo...
By
New Mexico Water Science Center

Morphometric and geological characterization with statistical correlations for 33 tributary drainage basins of the San Juan River watershed in the Four Corners region, USA Morphometric and geological characterization with statistical correlations for 33 tributary drainage basins of the San Juan River watershed in the Four Corners region, USA

Basin morphometry, climate and geology control how a hydrological network evolves over time, controlling the efficiency of weathering of elements from geological materials, and ultimately the input of sediment and dissolved constituents to river systems. Exceedances to the Navajo Nation surface water quality standards for trace metals have been reported in the San Juan River watershed...
Authors
K. E. Miltenberger, Zachary Shephard, Rachel Lynn Mixon, Johanna Blake, Shaleene Chavarria, Douglas Yager
By
New Mexico Water Science Center

Assessment of post-wildfire geomorphic change in the North Fork Eagle Creek stream channel, New Mexico, 2017–21 Assessment of post-wildfire geomorphic change in the North Fork Eagle Creek stream channel, New Mexico, 2017–21

The 2012 Little Bear Fire caused substantial vegetation loss in the Eagle Creek Basin of south-central New Mexico. This loss was expected to alter the localized hydrologic response to precipitation by creating conditions that amplify surface runoff, which might alter the geomorphology of North Fork Eagle Creek, a major tributary to Eagle Creek. To monitor short-term geomorphic change...
Authors
Justin R. Nichols, Shaleene B. Chavarria, Alexander P. Graziano
By
Water Resources Mission Area, New Mexico Water Science Center

Development of an integrated hydrologic flow model of the Rio San Jose Basin and surrounding areas, New Mexico Development of an integrated hydrologic flow model of the Rio San Jose Basin and surrounding areas, New Mexico

The Rio San Jose Integrated Hydrologic Model (RSJIHM) was developed to provide a tool for analyzing the hydrologic system response to historical water use and potential changes in water supplies and demands in the Rio San Jose Basin. The study area encompasses about 6,300 square miles in west-central New Mexico and includes the communities of Grants, Bluewater, and San Rafael and three...
Authors
Andre B. Ritchie, Shaleene B. Chavarria, Amy E. Galanter, Allison K. Flickinger, Andrew J. Robertson, Donald S. Sweetkind
By
Water Resources Mission Area, New Mexico Water Science Center

Upper Rio Grande Basin water-resource status and trends: Focus area study review and synthesis Upper Rio Grande Basin water-resource status and trends: Focus area study review and synthesis

The Upper Rio Grande Basin (URGB) is a critical international water resource under pressure from a myriad of climatic, ecological, infrastructural, water-use, and legal constraints. The objective of this study is to provide a comprehensive assessment of the spatial distribution and temporal trends of selected water-budget components (snow processes, evapotranspiration (ET), streamflow...
Authors
Kyle R. Douglas-Mankin, Christine Rumsey, Graham A. Sexstone, Tamara I. Ivahnenko, Natalie Houston, Shaleene Chavarria, Gabriel B. Senay, Linzy K. Foster, Jonathan V. Thomas, Allison K. Flickinger, Amy E. Galanter, C. David Moeser, Toby L. Welborn, Diana E. Pedraza, Patrick M. Lambert, Michael Scott Johnson
By
Water Resources Mission Area, Colorado Water Science Center, Earth Resources Observation and Science (EROS) Center , Utah Water Science Center, New Mexico Water Science Center, Oklahoma-Texas Water Science Center

Geomorphic survey of North Fork Eagle Creek, New Mexico, 2019 Geomorphic survey of North Fork Eagle Creek, New Mexico, 2019

The 2012 Little Bear Fire resulted in substantial loss of vegetation in the Eagle Creek Basin, south-central New Mexico, which has been expected to cause a variety of hydrologic responses that could influence geomorphic change to North Fork Eagle Creek. To monitor geomorphic change, surveys of a downstream study reach of North Fork Eagle Creek were conducted in 2017, 2018, and 2019 by...
Authors
Alexander P. Graziano, Shaleene B. Chavarria
By
Water Resources Mission Area, New Mexico Water Science Center

Streamflow response to potential changes in climate in the Upper Rio Grande Basin Streamflow response to potential changes in climate in the Upper Rio Grande Basin

The Rio Grande is a vital water source for the southwestern States of Colorado, New Mexico, and Texas and for northern Mexico. The river serves as the primary source of water for irrigation in the region, has many environmental and recreational uses, and is used by more than 13 million people including those in the Cities of Albuquerque and Las Cruces, New Mexico; El Paso, Texas; and...
Authors
C. David Moeser, Shaleene B. Chavarria, Adrienne M. Wootten
By
Water Resources Mission Area, New Mexico Water Science Center
Natural Scientists: Shaleene Chavarria’s Mission to Elevate Indigenous Voices at the USGS

Natural Scientists: Shaleene Chavarria’s Mission to Elevate Indigenous Voices at the USGS

Shaleene Chavarria, a member of the Pueblo of Santa Clara, advocates for the empowerment of Indigenous scientists within the USGS to attract future...

Read Article

Science and Products

Blue Lakes, Breckenridge, Colorado

Estimating the Future Effects of Forest Disturbance on Snow Water Resources in a Changing Environment

In the Western U.S., approximately 65% of the water supply comes from forested regions with most of the water that feeds local rivers coming from snowmelt that originates in mountain forests. The Rio Grande headwaters (I.e. the primary water generating region of the Rio Grande river) is experiencing large changes to the landscape primarily from forest fires and bark beetle infestations...
By
Climate Adaptation Science Centers
Estimating the Future Effects of Forest Disturbance on Snow Water Resources in a Changing Environment

Estimating the Future Effects of Forest Disturbance on Snow Water Resources in a Changing Environment

In the Western U.S., approximately 65% of the water supply comes from forested regions with most of the water that feeds local rivers coming from snowmelt that originates in mountain forests. The Rio Grande headwaters (I.e. the primary water generating region of the Rio Grande river) is experiencing large changes to the landscape primarily from forest fires and bark beetle infestations. Already
Learn More
Dry Rio Grande riverbed near Selden Canyon, New Mexico.

Analyzing the Response of Waterflow to Projected Climate Conditions in the Upper Rio Grande Basin

Water availability in the upper Rio Grande Basin is dependent on winter and monsoon season precipitation. Consecutive years of drought and above average temperatures have diminished water supply and increased demand for water in this region. The increasing gap between water supply and demand is cause for concern. Climate projections for the southwestern and south central United States...
By
Climate Adaptation Science Centers
Analyzing the Response of Waterflow to Projected Climate Conditions in the Upper Rio Grande Basin

Analyzing the Response of Waterflow to Projected Climate Conditions in the Upper Rio Grande Basin

Water availability in the upper Rio Grande Basin is dependent on winter and monsoon season precipitation. Consecutive years of drought and above average temperatures have diminished water supply and increased demand for water in this region. The increasing gap between water supply and demand is cause for concern. Climate projections for the southwestern and south central United States suggest that
Learn More

Data supporting the 2020 and 2021 geomorphic survey of North Fork Eagle Creek, New Mexico Data supporting the 2020 and 2021 geomorphic survey of North Fork Eagle Creek, New Mexico

This U.S. Geological Survey (USGS) data release contains results from the 2020 and 2021 geomorphic survey of North Fork Eagle Creek, New Mexico. Both geomorphic surveys were conducted by the USGS, in cooperation with the Village of Ruidoso, New Mexico, and are the last set of surveys in a planned series of five annual geomorphic surveys of the stream reach located between the North Fork...
By
New Mexico Water Science Center

GSFLOW, used to run PRMS and MODFLOW-NWT models, to simulate the effects of natural and anthropogenic impacts on water resources in the Rio San Jose Basin and surrounding areas, New Mexico GSFLOW, used to run PRMS and MODFLOW-NWT models, to simulate the effects of natural and anthropogenic impacts on water resources in the Rio San Jose Basin and surrounding areas, New Mexico

The Rio San Jose Integrated Hydrologic Model (RSJIHM) is a sequentially linked, integrated hydrologic model utilizing the Precipitation-Runoff Modeling System (PRMS) (version 5.2.0) and MODFLOW-NWT (version 1.2.0) that was developed to provide a tool for analyzing the hydrologic system response to historical water use and potential changes in water supplies and demands in the Rio San...
By
New Mexico Water Science Center

Data supporting the 2019 geomorphic survey of North Fork Eagle Creek, New Mexico Data supporting the 2019 geomorphic survey of North Fork Eagle Creek, New Mexico

This U.S. Geological Survey (USGS) data release contains results from the 2019 geomorphic survey of North Fork Eagle Creek, New Mexico. The 2019 geomorphic survey was conducted by the USGS, in cooperation with the Village of Ruidoso, New Mexico, and is the third in a planned series of five annual geomorphic surveys of the stream reach located between the North Fork Eagle Creek near Alto...
By
New Mexico Water Science Center

Hydrologic simulations using projected climate data as input to the Precipitation-Runoff Modeling System (PRMS) in the Upper Rio Grande Basin Hydrologic simulations using projected climate data as input to the Precipitation-Runoff Modeling System (PRMS) in the Upper Rio Grande Basin

The Rio Grande Basin Study (Basin Study) is a stakeholder-led project funded by the U.S. Bureau of Reclamation to develop climate adaptation strategies to address the growing gap between water supply and demand in the Upper Rio Grande Basin in Colorado, New Mexico, and Texas. The role of the USGS in the Basin Study is to simulate historic and future streamflow using projected climate...
By
New Mexico Water Science Center

Water and sediment leachate chemistry from the San Juan Generating Station, Waterflow, NM, January 2021 Water and sediment leachate chemistry from the San Juan Generating Station, Waterflow, NM, January 2021

The San Juan Generating Station in Waterflow, NM, owned by the Public Service Company of New Mexico (PNM) is a coal-fired power plant that operates on coal mined on the same property. This plant is scheduled to shut down in 2022. In light of this impending closure, the Bureau of Reclamation (Reclamation) is interested in purchasing the plant's raw-water reservoir for use in the Navajo...
By
New Mexico Water Science Center

Water and sediment leachate chemistry from the San Juan Generating Station, Waterflow, NM, January 2021 Water and sediment leachate chemistry from the San Juan Generating Station, Waterflow, NM, January 2021

The San Juan Generating Station in Waterflow, NM, owned by the Public Service Company of New Mexico (PNM) is a coal-fired power plant that operates on coal mined on the same property. This plant is scheduled to shut down in 2022. In light of this impending closure, the Bureau of Reclamation (Reclamation) is interested in purchasing the plant's raw-water reservoir for use in the Navajo...
By
New Mexico Water Science Center

Morphometric and geological characterization with statistical correlations for 33 tributary drainage basins of the San Juan River watershed in the Four Corners region, USA Morphometric and geological characterization with statistical correlations for 33 tributary drainage basins of the San Juan River watershed in the Four Corners region, USA

Basin morphometry, climate and geology control how a hydrological network evolves over time, controlling the efficiency of weathering of elements from geological materials, and ultimately the input of sediment and dissolved constituents to river systems. Exceedances to the Navajo Nation surface water quality standards for trace metals have been reported in the San Juan River watershed...
Authors
K. E. Miltenberger, Zachary Shephard, Rachel Lynn Mixon, Johanna Blake, Shaleene Chavarria, Douglas Yager
By
New Mexico Water Science Center

Assessment of post-wildfire geomorphic change in the North Fork Eagle Creek stream channel, New Mexico, 2017–21 Assessment of post-wildfire geomorphic change in the North Fork Eagle Creek stream channel, New Mexico, 2017–21

The 2012 Little Bear Fire caused substantial vegetation loss in the Eagle Creek Basin of south-central New Mexico. This loss was expected to alter the localized hydrologic response to precipitation by creating conditions that amplify surface runoff, which might alter the geomorphology of North Fork Eagle Creek, a major tributary to Eagle Creek. To monitor short-term geomorphic change...
Authors
Justin R. Nichols, Shaleene B. Chavarria, Alexander P. Graziano
By
Water Resources Mission Area, New Mexico Water Science Center

Development of an integrated hydrologic flow model of the Rio San Jose Basin and surrounding areas, New Mexico Development of an integrated hydrologic flow model of the Rio San Jose Basin and surrounding areas, New Mexico

The Rio San Jose Integrated Hydrologic Model (RSJIHM) was developed to provide a tool for analyzing the hydrologic system response to historical water use and potential changes in water supplies and demands in the Rio San Jose Basin. The study area encompasses about 6,300 square miles in west-central New Mexico and includes the communities of Grants, Bluewater, and San Rafael and three...
Authors
Andre B. Ritchie, Shaleene B. Chavarria, Amy E. Galanter, Allison K. Flickinger, Andrew J. Robertson, Donald S. Sweetkind
By
Water Resources Mission Area, New Mexico Water Science Center

Upper Rio Grande Basin water-resource status and trends: Focus area study review and synthesis Upper Rio Grande Basin water-resource status and trends: Focus area study review and synthesis

The Upper Rio Grande Basin (URGB) is a critical international water resource under pressure from a myriad of climatic, ecological, infrastructural, water-use, and legal constraints. The objective of this study is to provide a comprehensive assessment of the spatial distribution and temporal trends of selected water-budget components (snow processes, evapotranspiration (ET), streamflow...
Authors
Kyle R. Douglas-Mankin, Christine Rumsey, Graham A. Sexstone, Tamara I. Ivahnenko, Natalie Houston, Shaleene Chavarria, Gabriel B. Senay, Linzy K. Foster, Jonathan V. Thomas, Allison K. Flickinger, Amy E. Galanter, C. David Moeser, Toby L. Welborn, Diana E. Pedraza, Patrick M. Lambert, Michael Scott Johnson
By
Water Resources Mission Area, Colorado Water Science Center, Earth Resources Observation and Science (EROS) Center , Utah Water Science Center, New Mexico Water Science Center, Oklahoma-Texas Water Science Center

Geomorphic survey of North Fork Eagle Creek, New Mexico, 2019 Geomorphic survey of North Fork Eagle Creek, New Mexico, 2019

The 2012 Little Bear Fire resulted in substantial loss of vegetation in the Eagle Creek Basin, south-central New Mexico, which has been expected to cause a variety of hydrologic responses that could influence geomorphic change to North Fork Eagle Creek. To monitor geomorphic change, surveys of a downstream study reach of North Fork Eagle Creek were conducted in 2017, 2018, and 2019 by...
Authors
Alexander P. Graziano, Shaleene B. Chavarria
By
Water Resources Mission Area, New Mexico Water Science Center

Streamflow response to potential changes in climate in the Upper Rio Grande Basin Streamflow response to potential changes in climate in the Upper Rio Grande Basin

The Rio Grande is a vital water source for the southwestern States of Colorado, New Mexico, and Texas and for northern Mexico. The river serves as the primary source of water for irrigation in the region, has many environmental and recreational uses, and is used by more than 13 million people including those in the Cities of Albuquerque and Las Cruces, New Mexico; El Paso, Texas; and...
Authors
C. David Moeser, Shaleene B. Chavarria, Adrienne M. Wootten
By
Water Resources Mission Area, New Mexico Water Science Center
Natural Scientists: Shaleene Chavarria’s Mission to Elevate Indigenous Voices at the USGS

Natural Scientists: Shaleene Chavarria’s Mission to Elevate Indigenous Voices at the USGS

Shaleene Chavarria, a member of the Pueblo of Santa Clara, advocates for the empowerment of Indigenous scientists within the USGS to attract future...

Read Article
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